Apparatus for burning waste liquor



April 28, 1953 4 Sheets-Sheet 1 Filed May 2, 1947 ZAHHH'HHHH INVENTOR ATTORNEY Jn im my Cw C nv. /HB 10,

Apil 28, 1953 J. c. SINGLETON, JR

APPARATUS FOR BURNING WASTE LIQUoR 4 Sheets-Sheet 2 Filed May 2, 1947 INVENTORV John C ngletonjr bdfvL/ ATTORNEY J. C. SINGLETON, JR

APPARATUS FOR BURNING WASTE LIQUOR vApril 28, 1953 4 Sheets-Sheet 3 Filed May 2, 1947 INVENTOR JO/m C157 April 2s, 1953 J. C.. SINGLETON, JR

APPARATUS FOR BURNING WASTE LIQUOR 4 Sheets-Sheet 4 Filed May 2, 1947 Patented Apr. 28, .1953

APPARATUS FRBURNING WASTE LIQU'OR .lohn C.v Singleton,;-Jr., Watchung-N. J assigner toThe Babcock 8v` Wilcox Company, New York, N. Y., a corporation of Newlersey ApplcationMay 2, 1947,Se1ialNo.v 745,598

(Cl. .2S-'MW 5 `Flaiins.

"The present invention-relates irl-'general to the recovery of chemicals and/or heat fromffwaste liquors containing inorganic vchemiealsand combustiblev organic matter, and more particularly,

toa method and apparatus 'whereby such recov- `ery is effected as a result of Vburningfa concentrated pulp -digester residual liquor derived from various pulping processes, suclras the sulphate, soda, or sulphiteprocesses, Wholly or vpartly in suspension in AaV suitable furnace. i Inlburning sulphate residual liquor, for exam ple, the concentrated `.residualliquor may beintroducedinto theupperpart of the furnace cham berf and directed so asto provide dehydration of vthe sprayed liquor, distillation of'volatiles, and at leastpartial'combustion while in transit Ato the furnace vfloorlor hearth. The Vresultant char is allowed to accumulateto-asubstantial depth von the 1hearth and is burned lot/'primary air streams directed into the-bed. "The char bed also acts as a reducing medium for vthe reduction of 'the inorganic chemicalsfsuch as sodium sulphate to sodi- 'um sulphide,4 and .the temperatures within the bed permit the w'thdrawalfof the chemicals in va molten condition.

lInburning a calcium base sulphite liquor, and particularly semi-chemical sulphite residual liquor, the onlyusableA chemical which can be recovered is thefjsulphur constituent of the liquor. Accordingly it has been proposedthat the liquor beintroduced in a finely atomized condition and a `highly oxidizing atmosphere maintained in the Jfurnace chamber, `while .the combustible constituents oi' the liquorare burned mainly in suspension. Under such conditions, thesulphur con- `stituent combines with oxygen in the' furnaceat- `mospheretoformssulphur dioxide which passes out fthefurnace chamber with theother'iurnace-*gases and can be economically recovered in the usualgas absorption towers for this purpose. The incombustible residue ofthe liquor is periodically vremoved from the furnace bottom in any suitable manner.

In soda'residual liquor the includedchemicals are'mainlysodium carbonate and a' small amount oi' sodiumsulphate. "Inthenormaloperation of a soda` recovery furnace, the concentrated liquor is sprayed into the'iurnace yinia conditionand direction'in Ywhich substantially all of the combustible constituents ofthe liquor are burned in suspensionthe resultant char and ash falling-to 'thcfurnace bottom .where it ismaintained .in a relatively shallow 4bed averaging from about twelve to `aboutleiahteen inches in depth. Heretofore self-sustaining combustion'conditions have beenfdfcult to--maintainand as a result the smelted chemicals frequently became solidiied in the furnace bottom. No chemical-reducingac- 'tionvis required in the bed,A andsolong as furnace temperature conditions will permit, the inorganic chemicals will ow in a molten condition from the furnace chamber.

`In any `oithe foregoing processes, one of the main considerations is the maintenance of selfsustaining combustion conditions: and, in the soda process in xpar-ticulan: the maintenance of high temperature ycombustion l closely adjacent the hearth. so as :to maintainthe deposited smelt in .amolten conditioniorcontinuous-discharge from the furnace.

An object ,loi imyinvention is therefore `directed particularly to improvements inithe operation of iurnacesiwherein theprincipaliuel isa residual liquor, and wherein the'maintenance'of high temfperaturetcombustion ina particular zone is relatively critical.

Another t. object is to provide; .a method of operationiapplcable to .theiimproved burning orv residual or blackliquor, in general, and more `particularly.tol-the.burning of concentratedliquor derived froml the soda pulp process.

v.Inkeepingwith:the foregoing objects, I pro- -pose .to dischargezthe liquor into `a combustion .chamberna finely divided, atomized state so as .to exposeianfextensive. area of particlesurfface to .an-,adjoining combustion supporting atmosphere. An .additional Objectis to discharge the atomizedliquorinto. ther chamber vin a widely divergent, liatpatterniof spray, andato maintain a direction of-.idischargerwhich will `enable combustion to be substantially:completedfwhile the liquor is in suspensionwithoutv excessive carry-overof chemicals iromithe.'furnacefandn the-soda process, Withoutz: appreciable. 4deposition cof. unburned organic clflemicall onany 'boundary surface.

further:objectpapplicable,to. the soda process in partculanais: to maintain .anactivecombustion zone-closelyadjacent thezhearth so as to provide a continuous -i. discharge l`.from the furnace of molten. inorganic chemicals.

. A further specificiobject isianimproved method andapparatus fwherebyfatomized liquor` of .the Asoda orsulphitegp-rocessfissdischarged into the iurnace Vin `.two orfmoreflati Sprays in opposite, and downwardly converging directions,l with the ,mediany planesfofzdischarge traversing an air admission:zoneyupwardlyspaced from the hearth.

-Myinvention also .embodiesa particular form of -iuel atomizng Lapparatus-adaptedv for contin- ,uediservice with blackdiquorwithout vplugging and affording economy of operation .both as to the fuel and atomizing medium.

My invention also contemplates apparatus for supporting each atomizer in a predermined position, fixed or adjusted, whereby the required direction of fuel discharge may be attained, and maintained.

The various features of novelty which characterize my invention are pointed out with particularity in the claims annexed to and forming a part of this specification. For a better understanding of the invention, its operating advantages and specific objects attained by its use, reference should be had to the accompanying drawings and descriptive matter in which I have illustrated and described selected embodiments of my invention. While the apparatus of my invention is adapted for use in burning various liquid fuels, the construction and arrangement specifically disclosed is designed for carrying out my improved process of burning soda pulp residual liquor.

Of the drawings:

Fig. 1 is a sectional side elevation of a recovery furnace in which my invention is especially adapted for use;

Fig. 2 is a sectional front elevation of the recovery furnace illustrated in Fig. 1, taken along line 2-2;

Fig. 3 is a front elevation of an atomizer mount as constructed in accordance with my invention;

Fig. 4 is a sectional side elevation of the atomizer mount shown. in Fig. 3, taken along line 44;

Fig. 5 is a plan view of the apparatus shown in Fg- 4;

Fig. 6 is a sectional plan of the mount, taken along line 6--6;

Fig. '1 is a sectional elevation showing a modied form of atomizer mount;

Fig. 8 is a sectional plan view of parts shown in Fig. '7, taken along line 1-1; and

Fig. 9 is a fragmentary longitudinal section showing the construction of a suitable form of atomizer at its fuel discharge end.

As illustrated in Figs. 1 and 2, apparatus suitable for the practice of my invention may include a vertical recovery furnace, and associated heat recovery apparatus, generally of the type and arrangement disclosed in U. S. Patent No.

2,198,446 to L. S. Wilcoxson, issued April 23, 1940.

is formed by a trough shaped fluid cooled refractory hearth I6 inclined downwardly toward the front wall in which is provided an opening l1 for the discharge of smelt into a smelt spout I8. The upper end of the recovery furnace is closed throughout its area by a rearwardly inclined uid cooled arch or roof I9. In the upper portion of the rear wall I3 is formed a heating gas outlet 2I through which the heating ases generated in the furnace pass to a steam boiler and other heat recovery apparatus which, although not presently illustrated, may be understood to be arranged as shown in the aforesaid patent, and the flow of gases similarly maintained therethrough under induced draft.

Each of the furnace Walls is provided with a row of horizontally spaced upright water tubes I2a, I3a, and I4a, respectively, having suitable -provision for supporting an application of plastic refractory material 23 thereon throughout areas directly exposed to combustion temperatures within chamber I5. Front wall tubes I2a extend upwardly along the front wall from a lower transverse header 24, and along the roof arch I9 to an upper transverse header 25. Rear wall tubes Isa extend upwardly along the rear wall from a lower transverse header 26 to the upper transverse header 25 to which front wall tubes I2a are connected, the rear wall tubes having upper end portions I3b arranged to form a screen across the furnace gas outlet 2I. Each row of side wall tubes I4a extends upwardly along a side wall to an upper longitudinal header 21, while the lower ends of both roWs of tubes I4a are bent inwardly through the hearth structure and connected to a common longitudinally extending header 28. Suitable connections may be provided, similar to those indicated in the patent. whereby the lower headers 24, 26, and 28 are arranged to receive water from the lower drum of a steam boiler, while the upper headers 25 and 21 are connected into an upper drum of the boiler, to provide an upward flow of fluid through the furnace wall tubes. As indicated in Fig. 2, the side walls I4 are arranged to slope outwardly toward their upper ends so as to provide a slightly increasing cross section of chamber in an upward direction.

The waste liquor to be burned in the furnace is introduced through opposite side walls I4 by means of atomizers 29 of the type illustrated in part in Figs. 4 and 9, and as more fully disclosed. and claimed, in the copending application of James Fletcher, Serial No. '144,891 led April 30, 1947. Each atomizer 29 is of the fluid-atomizing type and is constructed and arranged so as to discharge the preheated black liquor in an atomized state from a single centrally disposed port 32 in a flat fan-shaped pattern of spray. In more detail, each atomizer comprises an inner tube 3|, and a concentrically arranged outer tube or barrel 33, thereby providing a central supply passage 34 for black liquor, and an annular supply passage 35 for a fluid atomizing medium, suitably steam. The barrel 33 is received within a tubular distance piece Ill having its outer end secured to a coupling member II which is formed with inlets 20 and 39 for the black liquor and steam, respectively. The black liquor is directed into the centrally disposed sprayer plate port 32, while the steam is directed into port 32 from opposite sides through inclined ports 36, having spaced outlet areas 31, so as to effect atomization of the black liquor for discharge from port 32 as previously described. The fuel port 32 is of generally oblong cross section having parallel side walls 38 equidistant from a median plane, as seen in Fig. 4, and end walls 39 which, as seen in Fig. 9, are parallel to each other adjacent the fuel inlet end, but which are at substantially right angles to each other adjacent the fuel discharge end so as to provide a widely divergent pattern of spray in the median plane of discharge.

Each atomizer 29 is supported in a furnace side wall I4 by means of a mount 4I, for example,

which maintains the central axis of discharge at a. predetermined inclination to the horizontal. As detailed in Figs. 3-6, the mount 4I comprises a vertically elongated rectangular wall frame or box 42 having its central opening 43 opposite the space between adjacent upright wall tubes I4a, and its rectangular lateral flange 45 adjacent the outer face of the wall and to which the wall casing 46 is secured by casing bolts 41. Box 42 is formed with an inwardly projecting continuous rim or collar section 48 terminating in arcuate inner fend, surfaces 49 -tting Vtlietiibes"and having its upper"transverse'portion 5l extending from the back wall 52. The box is secured to the tubes by a known arrangement of studs' 53'lextending through lugs Mat both sides and fitted with nuts 56 at their `outer ends. TheV wall 51 forming the top of the box is formed Vwith a rectang'uiar air inlet 58 to which air is delivered under'pressure from a `suitable source by'means of a duct 59 secured totopwall lugsl by 'cap screws t2.

The iront of the box `is closed by 'a cover plete or door t3 providing' a substantially tight*constructionthe t3 seatingagainst a rectangular raised rim 5t rsurrounding the box opening i3 and being clamped inseated'position by lever-like iatches ddpivotally'supperted on shoulder-type holding; bolts e'i screwed ntobosses til onrplate et, several srch latches being spaced along each farti-calmar in of cover piate iid and havinginner arni port ons ad which bear against the plate, the arrn portions ii@ having inclined inner surfaces so as to provide a .vedging action. Ther outerarin il of eachlatch serves as a. counterweight maintaining the latch clear. of the door when rotated from its transverse clamping position.

The front piate is pvotally supported on the box ,trarne di. by means of a hinge pin entend-- ing ho rlentf/illy through spaced hinge brackets 'it on trarne die, and t. gli sleeve "ifi welded or otherwise secured to the door, the strap plate welded to both the plate and the sleeve, contributing to the securei oi the sleeve' to the door but more particularly serving as a stopplate adapted to abut the casing de, witlfiin lan area backed by flange/i5, and thereby limit door ops-ning movement to an approximately horiz-ontal position.

Theatcrnizer 2d is inserted through an integral tubular section Wi oi' theV iront plate t3, herein shown as a leneth oi tubing extending through the plate'at an Vacute angie and .veided thereto throughout its herinnert, the tubular sectionor sleeve 'i5 having its i. er diameter' providing a. relatively close around the atornizer distance piece lil which is held stationary by a T-handled set screw it bearing reinst its outer wail. The atorniaer 2d is thus croci/ably supported in a predetermined angular relation to the horicon'tai which for the arrangement shown provides an atei/niger inclination of about'd", this being a practical :annum for amount proportioned as shown. Lesser degrees of inclination, ranging from about 35 to 55 may be provided. by er ranging the tubular section it at thn selected angle, and at a somewhat .lower level if necessary topernil the atornizer to clear the upper collar portion E i, as indicated for example by the broken outline itc. ln any of these selected vpositions the atomizer 2Q is spaced throughout from frame 'Wiso-that a small quantity of air from the forced draft supply may be continuously introduced around the atorniaer, thereby preventing smelt ironi accumulating thereon and 'running down over the tip so as to cause distortion of the* spray andpossibiy cement the atoniiaer barrel 33 'in place within the distance piece iii so as to interfere with its withdrawal. Moreover, any smelt that might reach the tip is cooled by thexair so as to render it brittleand thus more readily removable. The introduction of air in this manner also prevents the escapeoi fume-laden furnace gases in the vicinity 0i the mount.

Figs. 7I land-e s howvfa :modified: form ofy mount providing fior r adjustment foi fthe atomizer nclination inl av vertical plane. In `this form, the box or frame '36', having an openingl registering with an intertubespace, 4and having a lateral iiange t2 and an inwardly extending rim or collar section 83, is removably secured to adjacent spaced wall tubes lia by means `of clamping blocks dit and -vlarranged at opposite sides of the-tube row and held in clamping relationr to thetubes and collar section by .clamping bolts B6. :Block:l St is formed with arcuatev surfaces 3'! .engaging the tubes at the inner `sideof fthev row, while block t5, at'theouterside, isformed with danged portions t9 'engaging atshoulderedfportondl 'ci' the frame collar t3 which is formed with/tubey iitting ysurfaces 92 .at its inner end. in addition to .itsuutility as .a clamp,' the block deserves to close o'f an appreciable '.areazof opening'rt! and Athusshields thepatornizerand ball supportifroin radiant:,heat` and'srnelt, the block furthermore vproviding l. a chilling surface "which freezes any'smeltthat mightaocumulate so as to'. facilitate its removal.

'The door or. cover 33,1having-a-lateral flange eiseating against La `rim surface Q5 surrounding theiopening d i, is vremovably secured to theframe by suitable known means'not: shown. The cover 93 includes an integralltubular section 96 clisposed in'oolique relationthereto and receiving the atomizer iii which is supported thereby in a balkans -sociret mountngeiatits outerend. The ball member 98 oi the support is seated inra somewhat spherical or-conical surface impor' a diameter less than the diameter offthe ballsurface, while an annuiar. clamping plate iili, having a similarly formed inner surta-ce i633 `bearing against the ball, is removably secured tor section by studs liaanol nuts H35. Ball S8 is formed with a central bore it in which a tubular element or sleevey mi' is received and seated against. an annular shouldered area its, the atomiser it being received Vwithin sleeve ibi and being secured against longitudinal and angular' displacement by aiset screw lii 'extending through the wall of the sleeve and bearingagainst the tubular distance piece iu. The top wall of box 861i is iorined with an -air iniet lli? through which cooling air may be admitted for introduction around the atoniizer as in the previously described embodiment. in this form, the air inlet connection, from a forced draft fan or other suitable sourcey is provided. by the duct H3 formed integraiiy with the top-wall. As shown in Fig. 7, the atomizer 29 .is directed at a relatively steep inclination to the horizontal in which position ,it may be maintained by tightening the clamping bolts U35 associated with the ball-and-socket support 91. Lesser inclinations are available, within apredetermined range and in the saine vertical plane, by adjustment oi the ball member iiilrwith respect to thev bearing surfaces llil' and it, in any of which positions, the angularity adjustment may be maintained Aby nuts m5 as before. Transverse angular adjustments are also availabie to an extent determined mainly by the spacing cr' wall tubes iria.

l Resuming description' of the'furnace'andf fuling arrangement, thezatomizers 22B, supported in mounts-iii and suitably connected' tothe waste liquor andsteam supplies, `are mounted inopposite sidewalls Maat substantially equal elevations above-the hearth 15,'with each atomizer having its longtudinal` axis disposed at a reiativelysteep inclination tothe horizontal sofas to direct-.fthe spray toward a..predeterminedrareasof;theheaith.

Each atomizer is angularly adjusted in ysleeve 16 so as to maintain the elongation of sprayer port 32 substantially horizontal and thereby the median plane of discharge substantially parallel to a horizontal line, each atomizer being adjusted longitudinally so as to maintain a minimum operating clearance between the sprayer port and the inner face of the adjacent refractory lined wall.

In the specic arrangement shown, the longitudinal axis of each atomizer is arranged at a generally minimum operating angle of inclination wherein each such axis is directed toward an area adjacent the opposite wall, substantially at the intersection of the hearth with the opposite wall,` as indicated by the intersecting diagonal lines appearing in Fig. 2, the longitudinal atomizer axes intersecting centrally of chamber l above the level of air ports |26. 'I'he spray from each atomizer may be directed toward hearth areas more nearly adjacent the wall in which the atomizer is mounted by suitable proportioning of mount 4| to provide correspondingly steeper angles of inclination. In a structural embodiment of the invention, the atomizers 22 are suitably positioned midway between the front and rear walls |2 and |3, and at an elevation of about i6 feet above the midpoint of the furnace floor or hearth l5, this elevation applying, for example, to a combustion chamber having a nominal averagewidth of approximately 10 feet, and a nominal depth, front to back, of approximately 14 feet.V

The air required for combustion is supplied to chamber I5 at separate elevations therein, above and below the level of atomizers 29. The air supply provisions include a pair of main conduits |23 receiving heated air from a forced draft air heating source, not shown, and discharging to a generally U-shaped wind box system having duct portions |24 and |25 along the side and rear walls respectively. Primary air is introduced adjacent the hearth |G through vertically elongated ports |26 in each side wall I4, and in rear wall I3, the side wall ports |25 being arranged in rows inclined upwardly to the level of the horizontal row of corresponding rear wall ports. Secondary air is introduced through a row of round ports |21 in each side wall I4 and in rear wall I3, each row being horizontally disposed and above the level of atomizers 29, with each side wall row at a higher level than the rear wall row. The primary air ports |25 are individually iitted with downwardly directed nozzles |28 connected in groups through ducts |29 to air duct portions |24 and |25. The secondary air ports |21 in each side wall are fitted with downwardly directed nozzles |3| connected in a group through a conduit |32 to a main conduit |23, while corresponding ports |27 in the rear wall are fitted with horizontally directed nozzles |34 connected in a group through air ducts |35 and |32 to main conduits |23.

The air ducts 59 conducting air to atomizer mounts 4| are connected to upper horizontal portions of conduits |32 which supply air to secondary air port nozzles |3|. The air supply system includes suitable regulating means for controlling delivery of air to the corresponding nozzles.

In the operation of the furnace described, the atomized liquor is discharged into combustion chamber I5 at a considerable distance above the hearth l5, and in steeply inclined downward directions, so as to alford an adequate length of path over which combustion may be completed while the liquor is in suspension, the form of atomizers employed providing sprays of the high degree of particle neness especially suitable for suspension burning of soda pulp liquor. The velocity of atomized liquor discharge is suiiciently high to cause the sprays to enter and, to a certain extent, traverse the zone of primary air admission adjacent the hearth but, at the same time, suiciently low to obviate direct impingement of any appreciable amount of spray on any of the chamber walls, including the hearth. Combustion is thus actively maintained in a zone close enough to the hearth to maintain the deposit of smelt in a continuously molten and fluid condition so as to maintain an uninterrupted discharge through opening Il, and thereby a minimum depth of smelt on the hearth.

In the downward iiight through chamber |5, the sprayed liquor particles are dehydrated and a considerable portion of the volatile constituents liberated as a result of exposure of the particles to the radiant heat of combustion and their intimate contact with the uprising stream of hot gases, the volatiles passing upwardly through the air admission zone established by the upper series of air ports |27, While the heavier char particles fall to the hearth in suitable condition for burning. The ash particles resulting from combustion of the atomized liquor are deposited on the hearth and together with the char particles form a relatively shallow bed 22 which is maintained at an average depth ranging from about twelve to eighteen inches, as previously mentioned. The deposited ash, as it becomes molten, trickles downwardly through the bed 22 and toward the discharge outlet |'I for continuous removal. The surface of the bed thus presents a substantially continuous exposed area of char which in the presence of air supplied through the lower seri-es of ports |26, from various directions, is readily combustible and provides a glowing surface contributing to stability of combustion within the chamber. In the soda process, in particular, the deposited ash is of a composition, mainly, sodium carbonate, which if allowed to freeze in the bed would provide a substantially non-combustible upper surface preventing combustion of the char content of the bed.

The depth of bed 22 may be controlled by regulating either the supply of air through the lower ports |26, or the supply of steam to the atomizer, or both; an increase in steam flow producing an increased ineness of atomization which results in a greater proportion of the liquor being burned in suspension, and thus a decreased rate of char accumulation in the bed; and an increase in air iiow through the lower ports |26 resulting in more rapid combustion of the accumulated char and thus a decrease in bed thickness; the rate of ring being controlled mainly by regulation of the pressure at which the liquor is supplied to the atomizer, without appreciable effect on the shape of the spray. Normally, the bed is maintained at a depth sufiiciently shallow to permit free access of air to its upper surface so as to maintain continuous combustion of the char, it being noted that, as indicated in the drawings, the upper bed surface is in general below the level of air ports |26, while its marginal areas, which are in the direct path of the downwardly directed air streams, are burned down to somewhat lesser thicknesses.

While in accordance with the provisions of the statutes I have illustrated and described herein the best form of my invention now known to me.v those skilled in the art will understand that changes may be made in the form of the apparatus disclosed without departing from the spirit of the invention covered by my claims, and that certain features of my invention may sometimes be used to advantage without a corresponding use of other features I claim:

1. In combustion apparatus including a furnace having an upright lateral wall, an atomizer mount in said wall, an atomizer supported in said mount and arranged to spray liquid fuel into said furnace in an inclined downward direction, said atomizer having an elongated cylindrical nozzle extending through an opening in said wall at a horizontally abrupt angle to said wall and terminating in a spray discharge tip adjacent the inner face of said fall, said tip having a spray discharge outlet slot of horizontally elongated cross section in a direction parallel to said furnace wall, said mount comprising a frame having an opening therethrough arranged to pass said atomizer nozzle, a door for said opening having an integral tubular support for said nozzle, a hinge support for said door associated with said frame and arranged for opening and closing movement of said door relative to said frame opening about a horizontal axis disposed below said opening, stop means preventing door opening movement beyond a horizontal plane extending substantially through said axis, and means for clamping said door to said frame in its closed position. i

2. In combustion apparatus including a furnace having an upright boundary wall, a substantially gas tight mount in said wall, an atomizer supported in said mount and arranged to spray liquid fuel into said furnace in an inclined downward direction, said atomizer having an elongated cylindrical nozzle extending through an opening in said wall and terminating in a spray discharge outlet slot of horizontally elongated cross section adjacent the inner face of said wall, said mount comprising a frame having an opening therethrough arranged to pass said atomizer nozzle, a door for said opening having a tubular support for said nozzle, and means forming a ball-and-socket mounting for said tubular nozzle support.

3. In combustion apparatus including a furnace having an upright boundary wall formed with horizontally spaced fluid cooling tubes therein providing an inter-tube space between two of said tubes, said apparatus including an atomizer arranged to spray a liquid ash-producing fuel into said furnace in an inclined downward direction away from said wall, said atomizer having an elongated nozzle extending through said wall in alignment with said inter-tube space and terminating in a spray discharge outlet of horizontally elongated cross section in a direction parallel to the inner face of said wall, the combination with said wall which comprises a substantially gas tight atomizer mount having a frame formed with an opening therethrough arranged to pass said atomizer nozzle, a door for said opening having a tubular support for said nozzle, and means for clamping said frame to tubes disposed at opposite sides of said inter-tube space including a metal clamping block in close thermal engagement with furnace side surfaces of said oppositely arranged tubes.

4. In combustion apparatus including a furnace having an upright lateral wall, an atomizer mount in said wall, an atomizer supported in said mount and arranged to spray liquid fuel into said furnace in an inclined downward direction, said atomizer having an elongated nozzle extending through an opening in said wall at a horizontally abrupt angle to said wall and terminating in a spray discharge tip adjacent the inner face of said wall, said tip having a spray discharge outlet-slot of horizontally elongated cross section in a direction parallel to said furnace wall, said mount comprising a frame having an opening therethrough arranged to pass said atomizer nozzle, a Y

door for said opening having a support for said nozzle, a hinge support for said door associated with said frame and arranged for opening and closing movement of said door relative to said frame opening about a horizontal axis disposed adjacent the lower margin of said opening, stop means limiting door opening movement to a position in which said door is substantially horizontal, and means for retaining said door in its closed position relative to said frame.

5. In combustion apparatus including a furnace having an upright boundary wall, a substantially gas tight mount in said wall arranged to receive gaseous fluid under pressure, an atomizer supported in said mount and arranged to spray fuel into said furnace in an inclined downward direction, said atomizer having an elongated nozzle extending through an opening in said wall, and terminating in a spray discharge outlet slot of horizontally elongated cross section adjacent the inner face of said wall, said mount comprising a frame having an opening therethrough arranged' to pass said atomizer nozzle, and providing space through which said gaseous fluid is discharged into said furnace adjacent said nozzle, a door for said opening having a support for said nozzle', and means forming an angularly adjustable mounting for said nozzle support.

J Oil-IN C. SINGLETON, JP..

References cited in the me of this patent UNITED STATES PATENTS Number Name Date 418,265 Atwood Dec. 31, 1889 450,052 Bliss et al. Apr. 7, 1891 1,621,509 Humanson et al. Mar. 22, 1927 1,771,829 Wagner July 29, 1930 1,881,359 Jones Oct. 4, 1932 1,931,536 Goodell Oct. 24, 1933 2,138,278 Kernin Nov. 29, 1938 2,161,110 lTomlinson June 6, 1939 2,277,946 Badenhausen Mar. 31, 1942 

1. IN COMBUSTION APPARATUS INCLUDING A FURNACE HAVING AN UPRIGHT LATERAL WALL, AN ATOMIZER MOUNT IN SAID WALL, AN ATOMIZER SUPPORTED IN SAID MOUNT AND ARRANGED TO SPRAY LIQUID FUEL INTO SAID FURNACE IN AN INCLINED DOWNWARD DIRECTION, SAID ATOMIZER HAVING AN ELONGATED CYLINDRICAL NOZZLE EXTENDING THROUGH AN OPENING IN SAID WALL AT A HORIZONTALLY ABRUPT ANGLE TO SAID WALL AND TERMINATING IN A SPRAY DISCHARGE TIP ADJACENT THE INNER FACE OF SAID FALL, SAID TIP HAVING A SPRAY DISCHARGE OUTLET SLOT OF HORIZONTALLY ELONGATED CROSS SECTION IN A DIRECTION PARALLEL TO SAID FURNACE WALL, SAID MOUNT COMPRISING A FRAME HAVING AN OPENING THERETHROUGH ARRANGED TO PASS SAID ATOMIZER NOZZLE, A DOOR FOR SAID OPENING HAVING AN INTEGRAL TUBULAR SUPPORT FOR SAID NOZZLE, A HINGE SUPPORT FOR SAID DOOR ASSOCIATED WITH SAID FRAME AND ARRANGED FOR OPENING AND CLOSING MOVEMENT OF SAID DOOR RELATIVE TO SAID FRAME OPENING ABOUT A HORIZONTAL AXIS DISPOSED BELOW SAID OPENING, STOP MEANS PREVENTING DOOR OPENING MOVEMENT BEYOND A HORIZONTAL PLANE EXTENDING SUBSTANTIALLY THROUGH SAID AXIS, AND MEANS FOR CLAMPING SAID DOOR TO SAID FRAME IN ITS CLOSED POSITION. 